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Magnesium rechargeable batteries are potential successors to lithium-ion batteries, owing to their low cost, superior safety, and high volumetric energy density. However, the development of high-energy and high-rate cathode materials remains challenging. Oxide-type cathodes, specifically spinels, have become a focus of attention due to their higher voltage and operation capacity. Nevertheless, previous studies have predominantly centered on high-temperature operations, on account of the sluggish diffusion of Mg ions in solids and low electrical conductivity. In this study, an electrically conductive CuMn2O4 ultrasmall (1.5 V) with a theoretical discharge capacity of 225 mAh g–1 and high-rate capability compared with other oxide-type cathodes.
Iimura et al. (Thu,) studied this question.
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